STRIPPER DRUMS

Description

[0001] This invention relates to crop strippers for detaching and harvesting standing crops, such as grain or flowers or herbage.

[0002] Typically such strippers comprise a rotary carrier in the form of a drum which carries axially extending series of teeth which, as the stripper is advanced through the crop, strip desired parts such as grain, leaves or blossom from stems of the crop.

[0003] In a crop stripper as described in WO86/01972, the drum is mounted between side support plates. The teeth on the drum have a symmetrical profile tapering to a point at the outer tip, but at the ends of the drum there are half-width teeth in which the median radial axis of the symmetrical full-tooth profile defines the edge of the end tooth facing the adjacent side support plate. Having the same height as the other teeth, these thinner end teeth are relatively easily deflected or deformed. Furthermore, between the side support plates and the teeth there must be a significant running clearance, allowing plant stems to enter between the teeth and the side support plate with the risk that they become wedged there, and possibly wrap around the drum shaft.

[0004] According to one aspect of the invention, a crop stripper comprising a rotary carrier having an axially extending series of stripping teeth and supports for the carrier at the ends of the carrier has the support at least at one end of the carrier flanked by root portions of the stripping teeth most adjacent the support and is provided with an axially projecting element radially outwardly of the nearest ends of said flanking tooth root portions, the edge profile of said root portions in a region of their extent nearer said support being inclined radially inwardly away from the support whereby crop stems contacting said root portion profiles in said region are deflected away from the support.

[0005] Crop strippers are made in a range of sizes and in another of its aspects the present invention is concerned particularly with multiple drum strippers in which a rotor is divided into at least two carriers or drums arranged coaxially side by side, e.g. in order to increase the overall width of the rotor, and a bearing support separates the adjacent ends of the drums.

[0006] The bearing support takes the form of a plate fixed to a casing of the stripper, and it is not possible to avoid a running gap or clearance in this region. There is therefore a tendency for the plant stems to become wedged between the drums and the support, leading to a blockage.

[0007] According to another aspect of the invention, in a crop stripper comprising a rotor having at least two rotary carriers arranged coaxially side by side, said carriers having axially extending series of stripping teeth projecting from them, has a support for the rotor extending between the two carriers and flanked by root portions of the stripping teeth most adjacent each side of the support, the support being provided with an axially projecting element radially outwardly of the nearest ends of said flanking tooth root portions, the edge profiles of said root portions in their region nearer said support being inclined radially inwardly away from the support whereby crop stems contacting said root portion profiles in said region are deflected away from the support.

[0008] In such a multiple-carrier arrangement, said formation of the end root profile portions can be employed at both ends of each carrier, whether adjacent an intermediate bearing support or end support.

[0009] Preferably, said axially projecting element of the or each support overlaps the end regions of the tooth root portions flanking the associated support. The axial overlap of such a radially outer element can prevent the direct entry of plant stems to the clearances between the support and the carriers. The axial overlap of an element and the inclination of the adjoining tooth root edge profiles can therefore act in a complementary way against the tendency of plant stems to become trapped between the plate and the carriers.

[0010] Preferably, the or each axially projecting element has a radially outer surface which is inclined radially inwardly towards the adjacent stripper teeth. Thus, if the support is disposed between two carriers of a rotor, the outer surface may be given a substantially V-form radial cross-section which is inclined towards the teeth of the respective carriers on opposite sides of said support. In this way it is possible to minimise any risk that plant stems will become lodged upon that radial outer surface, which in extreme circumstances could lead to a build-up that could affect the operation of the stripper adversely.

[0011] For efficient stripping it is known to give the root portions of the teeth of a crop stripper re-entrant edges to form bulbous gaps between the roots of adjacent teeth. In a preferred crop stripper according to the present invention, where an axially projecting element overlaps such a bulbous profile gap, the element lies within the radial extent of the bulbous gap profile.

[0012] A further measure which can be adopted to assist keeping the spaces at the end teeth free from blockage is to arrange that the end teeth are offset towards the support with the tip of each said end tooth at a pitch from the neighbouring tooth of the associated row of teeth that is increased relative to the pitch of intermediate teeth of said row. This limits the amount of crop that is received between the or each set of end teeth and their adjacent support so making it easier to discard any plant stems that have been caught up in this region.

[0013] In the foregoing references to the teeth adjacent the support or supports, it will be understood that each end tooth can be made as a single member or can be composed of two or more members which jointly have the features described, as in a stripper drum such as is described in WO92/08339.

[0014] The invention will now be described by way of example with reference to the accompanying drawings, in which:

Fig. 1 is a schematic side view of a known form of crop stripper,

Fig. 2 is a fragmentary and diagrammatic plan view of a portion of a crop stripper according to the invention showing the forward portion of a twin-drum rotor in the region of the adjacent ends of the two drums, and

Fig. 3 is a similar fragmentary view showing another embodiment of the invention.

[0015] Fig. 1 illustrates main components of a known form of crop stripper for attachment to a combine (not shown) or other crop collecting vehicle. The stripper comprises an outer casing 2, open to the ground, with an adjustable top cover 4. Within the casing is a stripping rotor 6 comprising axial rows of stripping teeth 8 journalled at its ends in the casing. Crop stripped by the rotor is delivered to an auger 10 by way of a transfer conveyor 12, and from the auger the crop goes to a collection space (not shown) in the collecting vehicle.

[0016] Because in this example the stripping rotor has a relatively large axial length, it is necessary to provide it with intermediate support from the casing, typically in the form of a plate 14 which lies intermediate the rotor axial length as a static bearing support. The rotor is therefore divided into two coaxial drums of chosen lengths, e.g. each being some 3 metres long. Fig. 2 illustrates a detail of the support plate 14 and the drums 6a,6b on each side of it.

[0017] Over the main extent of each drum 6a there are uniform axial rows of the teeth 8. The tooth pitch is generally constant but adjacent the support plate 14 each row of teeth has a modified end tooth 20. In the example illustrated each end tooth occupies a width equal to the pitch p of the main series of teeth. The teeth 8 have reentrant side edges 22 in their root portions to form bulbous gaps 24 between them. The mutually adjacent end teeth 20 of the two drums are canted towards each other so that at their closest approach their similarly re-entrant side edges 26 form an entry opening to their combined root gap with an opening width substantially the same as or even less than the minimum opening width to the root gaps in the main series of teeth. The outer tips 28 of the end teeth are also offset towards each other to lie at an axial spacing no greater, and preferably smaller, than the axial spacing between each of them and its adjacent tooth of the main series of teeth 8.

[0018] The support plate 14 itself has a capping 30 over its edge radially outwardly of the drum. The capping has a V-section outer surface 32, the sides of that section sloping radially inwardly towards the adjacent teeth 8. The width of the capping is greater than the minimum opening width between the two end teeth. The form of the combined bulbous root gap immediately adjacent the plate 14 and capping 30 is also modified from the form of the root gaps 24 of the main teeth. Radially innermost zone 34 of the tooth root gap on each side of the support plate 14 is offset some distance from the plate. From the zone 34 towards the plate the profile of the gap is formed by a portion 36 which slopes radially inwards away from the plate 14 between which plate and the end face of the drum 6a or 6b there is a free running clearance.

[0019] The canting of the tips of the end teeth towards each other limits the swath of crop taken into the space gap between the end teeth, so reducing the load on this critical region. Moreover, by setting the minimum opening width between the teeth to less than the width of the capping it is generally ensured that the crop stems coming between the teeth will first strike the sloping side of the capping and be deflected by it laterally away from the support plate opening and the ends of the drums. Most importantly, the inwards inclination of the edges of the root gaps from their ends adjoining the support plate reduces any tendency of stems held in the root gaps to work into the clearances between the ends of the drums and the plate. All these features therefore combine to reduce any risk of crop becoming trapped between the plate and the drums and causing blockages there.

[0020] The end teeth can be formed as separate elements, as indicated in Fig. 2, or can be end portions of longer comb plates formed with some or all of the main series of teeth. They can have the same radial extent as the main series of teeth, although this is not shown in Fig. 2.

[0021] Each end tooth can be formed as a unitary member, as shown in Fig. 2, or it can be compounded from a plurality of elements lying over each other, as in the case of the two-element construction of the main series of teeth 8 in Fig. 2 with their full radial height guide tooth elements 8a fronted by shorter stripping projections 8b. Further description of such a compounded double-element arrangement of teeth is given in our application WO92/08339. The tip spacing of the guide elements of the end teeth will then determine the swath width that is taken into the root gap between the stripping projections on opposite sides of the support plates.

[0022] Fig. 3 illustrates how similar measures to those described with reference to Fig. 2 can be provided at the outer side supports for the opposite ends of the rotor drums to provide similar protection there against blockage. Parts already described are indicated by the same reference numbers.

[0023] The rotor drum 6b is indicated in Fig. 3, but of course the opposite end of the rotor 6a can be provided with precisely the same arrangement in mirror image. The modified end tooth 20' now forms with the facing side wall 2a of the casing a restricted entry to the bulbous gap provided by the re-entrant side edge 26. Protective rib 32a disposed radially outwardly of the drum 6b corresponds to one half of the capping 30 and is disposed in the same spatial relationship to gap profile portion 36 of the associated gap inner zone 34 as the capping 30 to its root portion gap. The rotor is of course mounted with a free running clearance from the side wall 2a. That side wall extends beyond the rib 32a because it forms part of the casing for the entire stripper mechanism.

[0024] The preferred form of the end tooth 20' shown in Fig. 3 differs from the teeth 20 of Fig. 2 in two main respects. Its outer lateral apex is at a smaller offset than the corresponding point on a tooth 20 so as not to narrow unduly the restricted gap between the tooth and the side wall 2b. If this gap is made too small there is a risk it will be blocked by the stems that enter between the tooth and the side wall. The size of the gap is similar to that between the teeth 20. Also, the outer apex of the tooth 20' is canted further outwards than is the apex of a tooth 20, so that more crop is diverted away from the side wall 2b than is the case with the support plate 14.

[0025] It will be understood that the arrangement shown in Fig. 3 can equally be employed at one or both ends of a single drum stripper mechanism as with the double drum mechanism of Fig. 2.

Claims

1. A crop stripper comprising a rotary carrier (6a or 6b) having an axially extending series of stripping teeth (8,20) and supports (2a or 14) for the carrier at the ends of the carrier, wherein at least the support at one end of the carrier is flanked by root portions (36) of the stripping teeth (20 or 20') most adjacent the support and is provided with an axially projecting element (30 or 32a) radially outwardly of the nearest ends of said flanking tooth root portions (36), the edge profile of said root portions in a region of their extent nearer said support being inclined radially inwardly away from the support whereby crop stems contacting said root portion profiles in said region are deflected away from the support.

2. A crop stripper according to claim 1 wherein said rotary carrier (6a or 6b) is mounted in said supports (2a or 14) at its opposite ends.

3. A crop stripper comprising a rotor (6) having at least two rotary carriers (6a,6b) arranged coaxially side by side, said carriers having axially extending series of stripping teeth (8,20) projecting from them and a support (14) for the rotor extending between said two carriers, characterised in that the support (14) is flanked by root portions (36) of the stripping teeth most adjacent each side of the support, and is provided with an axially projecting element (30) radially outwardly of the nearest ends of said flanking tooth root portions (36), the edge profiles of said root portions in their region nearer said support being inclined radially inwardly away from the support whereby crop stems contacting said root portion profiles in said region are deflected away from the support.

4. A crop stripper according to claim 3 wherein there are end supports (2a) at opposite ends of the rotor (6) and said end supports are both provided with axially projecting elements (32a) extending in overlapping relationship with root portions of the stripping teeth at the adjacent ends of said carriers.

5. A crop stripper according to any one of the preceding claims wherein the or each said axially projecting element (30,32a) overlaps the end regions of the tooth root portions flanking the associated support (2a,14).

6. A crop stripper according to any one of the preceding claims wherein the or each said axially projecting element (30,32a) has a radially outer surface (32) which is inclined radially inwardly towards the adjacent stripper teeth.

7. A crop stripper according to claim 3 or claim 4 together with claim 6 wherein said outer surface (32) of the axially projecting element (30) on the support (14) between the two carriers has a substantially V-form radial cross-section which is inclined towards the teeth of the respective carriers (6a,6b) on opposite sides of said support.

8. A crop stripper according to any one of the preceding claims wherein at least at one carrier end the root portions of the teeth have a re-entrant profile which forms bulbous gaps at the roots of the teeth and the axially projecting element (30 or 32a) at said at least one end lies within the radial extent of said re-entrant profile of the tooth root portions.

9. A crop stripper according to any one of the preceding claims wherein said stripper teeth (20 or 20') most adjacent the or each support are offset towards the support so that the tip of each said tooth (20 or 20') is at a pitch from the tip of its neighbouring tooth (8) in the associated axial series of teeth that is increased relative to the pitch of the tips of intermediate teeth (8) of said series.

Ansprüche

1. Ernteproduktabstreifer, der einen rotierenden Träger (6a oder 6b) mit einer sich axial erstreckenden Abfolge von Abstreiferzähnen (8, 20) und Stützen (2a oder 14) für den Träger an den Enden des Trägers umfasst, worin zumindest die Stütze an einem Ende des Trägers von Wurzelabschnitten (26) jener Abstreiferzähne (20 oder 20') flankiert ist, die der Stütze am nächsten liegen, und mit einem axial vorragenden Element (30 oder 32a) versehen ist, das radial außerhalb der nächstgelegenen Enden der flankierenden Zahnwurzelabschnitte (66) liegt, wobei das Kantenprofil der Wurzelabschnitte in einem Bereich ihrer Erstreckung, welcher der Stütze näher liegt, radial nach innen von der Stütze weg abgeschrägt ist, wodurch Ernteproduktstängel, welche mit den Wurzelabschnittprofilen in Kontakt kommen, von der Stütze weggebogen werden.

2. Ernteproduktabstreifer nach Anspruch 1, worin der rotierende Träger (6a oder 6b) an seinen gegenüberliegenden Enden in den Stützen (2a oder 14) montiert ist.

3. Ernteproduktabstreifer, der einen Rotor (6) mit zumindest zwei koaxial Seite an Seite angeordneten rotierenden Trägern (6a, 6b), wobei die Träger sich axial erstreckende Abfolgen von Abstreiferzähnen (8, 20) aufweisen, die daraus hervorragen, sowie eine Stütze (14) für den Rotor umfasst, die sich zwischen den beiden Trägern erstreckt, dadurch gekennzeichnet, dass die Stütze (14) von Wurzelabschnitten (36) jener Abstreiferzähne flankiert ist, die jeder Seite der Stütze am nächsten liegen, und mit einem axial vorragenden Element (30) versehen ist, das radial außerhalb der nächstgelegenen Enden der flankierenden Zahnwurzelabschnitte (36) liegt, wobei das Randprofil der Wurzelabschnitte in einem Bereich ihrer Erstreckung, welcher der Stütze näher liegt, radial nach innen von der Stütze weg abgeschrägt ist, wodurch Ernteproduktstängel, welche mit den Wurzelabschnittprofilen in Kontakt kommen, von der Stütze weggebogen werden.

4. Ernteproduktabstreifer nach Anspruch 3, worin Endstützen (2a) an gegenüberliegenden Enden des Rotors (6) vorhanden sind und die Entstützen beide mit axial vorragenden Elementen (32a) versehen sind, die sich in überlappender Beziehung mit Wurzelabschnitten der Abstreiferzähne an den benachbarten Enden der Träger erstrecken.

5. Ernteproduktabstreifer nach einem der vorangegangenen Ansprüche, worin das oder jedes axial vorragende Element (30, 32a) die Endbereiche der Zahnwurzelabschnitte überlappt, welche die zugeordnete Stütze (2a, 14) flankieren.

6. Ernteproduktabstreifer nach einem der vorangegangenen Ansprüche, worin das oder jedes axial vorragende Element (30, 32a) eine radial äußere Fläche (32) aufweist, die zu den benachbarten Abstreiferzähnen radial nach innen geneigt ist.

7. Ernteproduktabstreifer nach Anspruch 3 oder 4 gemeinsam mit Anspruch 6, worin die Außenfläche (32) des axial vorragenden Elements (30) auf der Stütze (14) zwischen den beiden Trägern einen im Wesentlichen V-förmigen Querschnitt aufweist, der zu den Zähnen der jeweiligen Träger (6a, 6b) auf gegenüberliegenden Seiten der Stütze hin geneigt ist.

8. Ernteproduktabstreifer nach einem der vorangegangenen Ansprüche, worin zumindest an einem Trägerende die Wurzelabschnitte der Zähne ein in sich zurückkehrendes Profil aufweisen, das bauchige Spalten an den Wurzeln der Zähne bildet, und das axial vorragende Element (30 oder 32a) am zumindest einen Ende innerhalb der radialen Erstreckung des in sich zurückkehrenden Profils der Zahnwurzelabschnitte liegt.

9. Ernteproduktabstreifer nach einem der vorangegangenen Ansprüche, worin die Abstreiferzähne (20 oder 20'), die der oder jeder Stütze am nächsten liegen, zur Stütze hin versetzt sind, so dass sich die Spitze jedes Zahns (20 oder 20') in einem Abstand von der Spitze des benachbarten Zahns (8) in der zugeordneten axialen Abfolge von Zähnen befindet, der in Bezug auf den Abstand der Spitzen von dazwischenliegenden Zähnen (8) der Abfolge vergrößert ist.

Revendications

1. Effaneuse de cultures comprenant un porteur rotatif (6a ou 6b) ayant une série s'étendant axialement de dents (8,20) pour effaner et des supports (2a ou 14) pour le porteur aux extrémités du porteur, où au moins le support à une extrémité du porteur est flanqué par des portions de pied (36) des dents d'effanage (20 ou 20') qui sont les plus adjacentes au support et est équipé d'un élément faisant saillie axialement (30 ou 32a) radialement vers l'extérieur des extrémités les plus proches desdites portions de pied de dents flanquantes (36), le profil de bord desdites portions de pied dans une région de leur étendue plus près dudit support étant incliné radialement vers l'intérieur au loin du support par quoi des tiges des cultures venant en contact avec les profils de la portion de pied dans ladite région sont déviées au loin du support.

2. Effaneuse de culture selon la revendication 1, où ledit porteur rotatif (6a ou 6b) est installé dans lesdits supports (2a ou 14) à ses extrémités opposées.

3. Effaneuse de culture comprenant un rotor (6) ayant au moins deux porteurs rotatifs (6a,6b) agencés coaxialement côte à côte, lesdits porteurs ayant des séries s'étendant axialement de dents d'effanage (8,20) faisant saillie à partir d'eux ainsi qu'un support (14) pour le rotor s'étendant entre les deux porteurs, caractérisée en ce que le support (14) est flanqué par des portions de pied (36) des dents d'effanage qui sont les plus adjacentes à chaque côté du support, et présentent un élément (30) faisant saillie axialement, radialement vers l'extérieur des extrémités les plus proches des portions de pied de dents flanquantes (36), les profils de bord desdites portions de pied dans leur région plus près dudit support étant inclinés radialement vers l'intérieur au loin du support par quoi des tiges des cultures venant en contact avec lesdits profils de portion de pied dans ladite région sont déviées au loin du support.

4. Effaneuse de culture selon la revendication 3, dans laquelle sont prévus des supports d'extrémité (2a) aux extrémités opposées du rotor (6), et les deux supports d'extrémité précités sont équipés d'éléments (32a) faisant saillie axialement s'étendant selon une relation de chevauchement avec les portions de pied des dents d'effanage aux extrémités adjacentes desdits porteurs.

5. Effaneuse de culture selon l'une des revendications précédentes, où le ou chaque élément faisant saillie axialement (30,32a) recouvre les régions d'extrémité des portions de pied de dents flanquant le support associé (2a,14).

6. Effaneuse de culture selon l'une des revendications précédentes, où le ou chaque élément (30,32a) faisant saillie axialement a une surface radialement extérieure (32) qui est inclinée radialement vers l'intérieur, vers les dents d'effanage adjacentes.

7. Effaneuse de culture selon la revendication 3 ou la revendication 4 conjointement avec la revendication 6, où ladite surface extérieure (32) de l'élément (30) faisant saillie axialement sur le support (14) entre les deux porteurs a une section transversale radiale sensiblement en forme de V qui est inclinée vers les dents des porteurs respectifs (6a,6b) sur les côtés opposés dudit support.

8. Effaneuse de culture selon l'une des revendications précédentes, où au moins à une extrémité de porteur, les portions de pied des dents ont un profil rentrant qui forme des espaces bulbeux au pied des dents, et l'élément (30 ou 32a) faisant saillie axialement à ladite au moins une extrémité se situe dans l'étendue radiale dudit profil rentrant des portions de pied de dents.

9. Effaneuse de culture selon l'une des revendications précédentes, où lesdites dents d'effanage (20 ou 20') les plus adjacentes au ou à chaque support sont décalées vers le support de telle sorte que la pointe de chacune desdites dents (20 ou 20') se situe à un pas de la pointe de sa dent avoisinante (8) dans la série axiale associée de dents qui est augmentée par rapport au pas des pointes des dents intermédiaires (8) de ladite série.

Drawing